S7) Cellular Adaptations

Question 1

What determines the size of a cell population?

Answer 1

• Rate of cell proliferation
• Rate of cell differentiation
• Rate of cell death by apoptosis

Question 2

When does cell proliferation occur?

Answer 2

• Cell proliferation occurs in physiological and pathological conditions
• Excessive physiological stimulation can become pathological e.g. prostatic hypertrophy

Question 3

What regulates normal cell proliferation?

Answer 3

Proto-oncogenes

Question 4

Chemical signals from the microenvironment either stimulate/inhibit cell proliferation

Identify the four effects of chemical signals

Answer 4

• Survive – resist apoptosis
• Divide – enter cell cycle
• Differentiate – take on specialised form and function
• Die – undergo apoptosis

Question 5

How can a cell population increase its numbers?

Answer 5

Increased growth occurs by:

• Shortening the cell cycle
• Conversion of quiescent cells → proliferating cells (enter cell cycle)

Question 6

The restriction (R) point is the most critical checkpoint in the cell cycle.

What happens at this checkpoint?

Answer 6

• Checkpoint activation delays cell cycle and triggers DNA repair mechanisms / apoptosis via p53
• Majority of cells that pass R point will complete cell cycle

Question 7

How is the cell cycle controlled?

Answer 7

• Controlled by cyclins and cyclin dependent kinases (CDKs)
• CDKs become active by binding with cyclins

Question 8

What is cellular adaptation?

Answer 8

Cellular adaptation is the reversible state between a normal unstressed cell and an overstressed injured cell occurring when cells respond to challenges which are not completely pathological

Question 9

What are the 5 different types of cellular adaptation?

Answer 9

• Regeneration – multiply to replace loses
• Hyperplasia – increase in number
• Hypertrophy – increase in size
• Atrophy – decrease in size/number
• Metaplasia – replaced by a different type of cell

Question 10

What is hyperplasia?

Answer 10

- Hyperplasia is an increase in tissue/organ size due to increased cell numbers

• It is a response to increased functional demand and/or hormonal stimulation

Question 11

Describe the occurrence and control of hyperplasia

Answer 11

• Occurs in labile/stable tissues
• May occur secondary to a pathological cause but the proliferation is a normal response
• Remains under physiological control

Question 12

Provide two examples of physiological hyperplasia

Answer 12

• Increased erythrocyte production by bone marrow due to hypoxia
• Proliferative endometrium under the influence of oestrogen

Question 13

Provide two examples of pathological hyperplasia

Answer 13

• Epidermal thickening in chronic eczema/psoriasis
• Enlargement of thyroid gland due to iodine deficiency

Question 14

What is hypertrophy?

Answer 14

• Hypertrophy is an increase in tissue/organ size due to an increase in cell size without an increase in cell numbers
• It is a response to increased functional demand and/or hormonal stimulation

Question 15

Where does hypertrophy occur?

Answer 15

• Occurs in labile, stable and permanent tissues
• Seen especially in permanent cell populations due to little/no replicative potential

Question 16

Provide two examples of physiological hypertrophy

Answer 16

• The skeletal muscle hypertrophy of a bodybuilder
• The smooth muscle hypertrophy of a pregnant uterus (also involves hyperplasia) under the influence of oestrogen

Question 17

Provide three examples of pathological hypertrophy

Answer 17

• Ventricular cardiac muscle hypertrophy due to systemic hypertension / valvular disease
• Smooth muscle hypertrophy due to intestinal stenosis
• Bladder smooth muscle hypertrophy due to prostate gland enlargment

Question 18

What is compensatory hypertrophy?

Answer 18

Compensatory hypertrophy is an increase in the size / function of an organ or part to counteract a structural or functional defect

e.g. if one kidney is removed the other enlarges

Question 19

What is atrophy?

Answer 19

• Atrophy is the shrinkage of a tissue / organ due to an acquired decrease in size and/or number of cell
• Due to a reduced supply of growth factors and/or nutrients

Question 20

What is happening in cell atrophy?

Answer 20

• Shrinkage in the cell size to a point at which survival is still possible
• Reduced structural components of the cell

Question 21

Which processes underpin organ/tissue atrophy?

Answer 21

Organ/tissue atrophy is typically due to combination of cellular atrophy and apoptosis

Question 22

Provide two examples of physiological atrophy

Answer 22

• Ovarian atrophy in post-menopausal women
• The decrease in size of the uterus after parturition

Question 23

What are the 8 different pathological causes of atrophy?

Answer 23

• Reduced functional demand/workload (atrophy of disuse)
• Loss of innervation (denervation atrophy)
• Inadequate blood supply
• Inadequate nutrition
• Loss of endocrine stimuli
• Persistent injury
• Aging (senile atrophy)
• Pressure

Question 24

Provide an example for the following forms of pathological atrophy:

• Atrophy of disuse
• Denervation atrophy

Answer 24

• Reduced functional demand/workload – muscle atrophy after disuse
• Loss of innervation – wasted hand muscles after median nerve damage

Question 25

Provide an example for the following causes of pathological atrophy:

• Inadequate blood supply
• Inadequate nutrition

Answer 25

• Inadequate blood supply – thinning of skin on legs with peripheral vascular disease
• Inadequate nutrition – wasting of muscles with malnutrition

Question 26

Provide an example for the following causes of pathological atrophy:

• Persistent injury
• Loss of endocrine stimulus

Answer 26

• Loss of endocrine stimuli – breast, reproductive organs
• Persistent injury – polymyositis (inflammation of muscle)

Question 27

Provide an example for the following causes of pathological atrophy:

• Aging
• Pressure

Answer 27

• Aging – brain, heart
• Pressure – tissues around an enlarging benign tumour (secondary to ischaemia)

Question 28

What is metaplasia?

Answer 28

• Metaplasia is the reversible change of one differentiated cell type to another due to altered stem cell differentiation
• Sometimes a prelude to dysplasia and cancer

Question 29

Where does metaplasia occur?

Answer 29

• No metaplasia across germ layers
• Occurs only in labile or stable cell types

Question 30

Provide two examples of metaplasia

Answer 30

• Bronchial pseudostratified ciliated epithelium → stratified squamous epithelium due to effect of cigarette smoke
• Stratified squamous epithelium → gastric glandular epithelium with persistent acid reflux (Barrett’s oesophagus)

Question 31

Does metaplasia predispose to cancer?

Answer 31

Epithelial metaplasia can be a prelude to dysplasia and cancer:

• Barrett’s epithelium and oesophageal adenocarcinoma
• Intestinal metaplasia of the stomach and gastric adenocarcinoma

Question 32

What is regeneration?

Answer 32

Regeneration is the replacement of cell losses by identical cells in order to maintain the size of a tissue or organ

Question 33

Which factors induce cells to regenerate?

Answer 33

• Growth factors in the microenvironment
• Cell-to-cell communication

Question 34

Describe the regenerative capacity of the following tissues:

• Bone
• Tendons
• Articular cartilage

Answer 34

• Bone – very good
• Tendons – poor, heal very slowly as they have few cells and few blood vessels
• Articular cartilage – poor (avascular)

Question 35

Describe the regenerative capacity of the following tissues:

• Adipocytes
• Epithelia
• Liver

Answer 35

• Adipocytes – none, new fat cells are formed by undifferentiated cells that lie among the adipocytes
• Epithelia – very good
• Liver – very good

Question 36

Describe the regenerative capacity of the following tissues:

• Mesothelia
• Melanocytes
• Smooth muscle

Answer 36

• Mesothelia – good
• Melanocytes – tend to regenerate too little / too much
• Smooth muscle – very good

Question 37

Describe the regenerative capacity of the following tissues:

• Striated muscle
• Peripheral nerves
• Central Nervous system

Answer 37

• Striated muscle – limited, regeneration via satellite cells
• Peripheral nerves – regenerate well, sprouting axons grow at 1-3 mm/day
• Central nervous system – in humans, none

Question 38

What is reconstitution?

Answer 38

• Reconstitution is the replacement of a lost part of the body
• It requires the coordinated regeneration of several types of cells
• E.g. regrowth of a lizard’s tail*

Question 39

What is aplasia?

Answer 39

Aplasia is the complete failure of a specific tissue/organ to develop

• It is an embryonic developmental disorder e.g. aplasia of a kidney

Question 40

What is involution?

Answer 40

Involution is the normal programmed shrinkage of an organ, it overlaps with atrophy e.g. uterus after childbirth, thymus in early life

Question 41

What is hypoplasia?

Answer 41

• Hypoplasia is the congenital underdevelopment or incomplete development of a tissue or organ (spectrum of aplasia)
• There are an inadequate number of cells within the tissue which is present
• E.g. renal hypoplasia, testicular hypoplasia in Klinefelter’s syndrome, hypoplasia of the chambers of the heart*

Question 42

What is atresia?

Answer 42

Atresia is the congenital imperforation of an opening (no orifice) e.g. atresia of the anus or vagina

Question 43

What is dysplasia?

Answer 43

• Dysplasia is the abnormal maturation of cells within a tissue
• It is potentially reversible but is often a pre-cancerous condition

Question 44

Benign prostatic hyperplasia (BPH) occurs in 80% of men by the 8^th decade and is androgen dependent.

Which part of the prostate is affected and why is this important?

Answer 44

• The periurethral area (transition zone)
• The nodules that form press on the urethra and partially obstruct the flow of urine i.e. the patient experiences symptoms of bladder outflow obstruction

Question 45

What secondary effects can BPH have on the bladder?

Answer 45

• Bladder muscle hypertrophy
• Bladder distension
• Urinary retention

Question 46

Does BPH predispose a patient to prostatic carcinoma?

Answer 46

No

Question 47

Psoriasis is a common inflammatory dermatitis which affects 1-2% of people. The skin develops scales and bleeds easily.

Which areas of the body are commonly affected?

Answer 47

The skin of the elbows, knees, scalp, ears

Question 48

How does the skin in psoriasis differ from normal skin macroscopically and microscopically?

Answer 48

Macroscopically – well-demarcated, pink–salmon-coloured plaques covered by loosely adherent scales which are silver/white in colour

Microscopically – marked epidermal thickening, decreased/absent granular layer, minute microabscesses of neutrophils, dilated blood vessels within dermal papillae

Question 49

What alterations occur in proliferation of the squamous cells in psoriasis and how is this achieved?

Answer 49

• Psoriasis is a T cell-mediated disease (CD4+ and CD8+) with increased keratinocyte proliferation by unknown antigen
• The T cells produce growth factors for keratinocytes and induce them to proliferate at approximately 10x the normal rate

Question 50

Apart from the skin which other parts of the body can be affected by psoriasis?

Answer 50

• In 30-50% of cases the nails are also affected
• In 5-10% of cases the joints are also affected (psoriatic arthritis)

Question 51

A 23 year old man is involved in a car accident in which his right leg is fractured in three places. He is immobilised in bed, because of other injuries for three weeks.

What changes can occur to his leg due to the immobilisation, and why?

Answer 51

• Skeletal muscle atrophy due to a decrease in cell and tissue size as a result of decreased functional demand/workload
• Osteoporosis of disuse due to increased bone resorption as a result of lack of mechanical stress on the bone

Question 52

What other conditions can occur as a result of prolonged immobilisation?

Answer 52

• Decreased pulmonary ventilation
• Thromboembolism
• Pressure sores

Question 53

What is Barrett’s oesophagus?

Answer 53

• Barrett’s oesophagus is the metaplasia of oesophageal stratified squamous epithelium to gastric/intestinal type epithelium
• It occurs secondary to persistent acid reflux from the stomach into the oesophagus and predisposes to oesophageal adenocarcinoma